标签:自定义协议 超时 hdr handle active bind card sock ice
本篇文章主要是介绍使用LengthFieldBasedFrameDecoder解码器自定义协议。通常,协议的格式如下:
LengthFieldBasedFrameDecoder是netty解决拆包粘包问题的一个重要的类,主要结构就是header+body结构。我们只需要传入正确的参数就可以发送和接收正确的数据,那么重点就在于这几个参数的意义。下面我们就具体了解一下这几个参数的意义。先来看一下LengthFieldBasedFrameDecoder主要的构造方法:
public LengthFieldBasedFrameDecoder( int maxFrameLength, int lengthFieldOffset, int lengthFieldLength, int lengthAdjustment, int initialBytesToStrip)
那么这几个重要的参数如下:
下面我们根据几个例子的使用来具体说明这几个参数的使用。
长度域为2个字节,我们要求发送和接收的数据如下所示:
发送的数据 (14 bytes) 接收到数据 (14 bytes)
+--------+----------------+ +--------+----------------+
| Length | Actual Content |----->| Length | Actual Content |
| 12 | "HELLO, WORLD" | | 12 | "HELLO, WORLD" |
+--------+----------------+ +--------+----------------+
留心的你肯定发现了,长度域只是实际内容的长度,不包括长度域的长度。下面是参数的值:
长度域为2个字节,我们要求发送和接收的数据如下所示:
发送的数据 (14 bytes) 接收到数据 (12 bytes)
+--------+----------------+ +----------------+
| Length | Actual Content |----->| Actual Content |
| 12 | "HELLO, WORLD" | | "HELLO, WORLD" |
+--------+----------------+ +----------------+
参数值如下:
长度域为2个字节,我们要求发送和接收的数据如下所示:
BEFORE DECODE (14 bytes) AFTER DECODE (14 bytes)
+--------+----------------+ +--------+----------------+
| Length | Actual Content |----->| Length | Actual Content |
| 14 | "HELLO, WORLD" | | 14 | "HELLO, WORLD" |
+--------+----------------+ +--------+----------------+
留心的你肯定又发现了,长度域表示的长度是总长度 也就是header+body的总长度。参数如下:
长度域为2个字节,我们要求发送和接收的数据如下所示:
BEFORE DECODE (17 bytes) AFTER DECODE (17 bytes)
+----------+----------+----------------+ +----------+----------+----------------+
| meta | Length | Actual Content |----->| meta | Length | Actual Content |
| 0xCAFE | 12 | "HELLO, WORLD" | | 0xCAFE | 12 | "HELLO, WORLD" |
+----------+----------+----------------+ +----------+----------+----------------+
我们发现,数据的结构有点变化,变成了 meta+header+body的结构。meta一般表示元数据,魔数等。我们定义这里meta有三个字节。参数如下:
长度域为2个字节,我们要求发送和接收的数据如下所示:
BEFORE DECODE (17 bytes) AFTER DECODE (17 bytes)
+----------+----------+----------------+ +----------+----------+----------------+
| Length | meta | Actual Content |----->| Length | meta | Actual Content |
| 12 | 0xCAFE | "HELLO, WORLD" | | 12 | 0xCAFE | "HELLO, WORLD" |
+----------+----------+----------------+ +----------+----------+----------------+
我们发现,数据的结构有点变化,变成了 header+meta+body的结构。meta一般表示元数据,魔数等。我们定义这里meta有三个字节。参数如下:
长度域为2个字节,我们要求发送和接收的数据如下所示:
BEFORE DECODE (16 bytes) AFTER DECODE (13 bytes)
+------+--------+------+----------------+ +------+----------------+
| HDR1 | Length | HDR2 | Actual Content |----->| HDR2 | Actual Content |
| 0xCA | 0x000C | 0xFE | "HELLO, WORLD" | | 0xFE | "HELLO, WORLD" |
+------+--------+------+----------------+ +------+----------------+
我们发现,数据的结构有点变化,变成了 hdr1+header+hdr2+body的结构。我们定义这里hdr1和hdr2都只有1个字节。参数如下:
在前面的文章中我们知道,具体的拆包协议只需要实现
void decode(ChannelHandlerContext ctx, ByteBuf in, List<Object> out)
其中 in 表示目前为止还未拆的数据,拆完之后的包添加到 out这个list中即可实现包向下传递,第一层实现比较简单
@Override protected final void decode(ChannelHandlerContext ctx, ByteBuf in, List<Object> out) throws Exception { Object decoded = decode(ctx, in); if (decoded != null) { out.add(decoded); } }
重载的protected函数decode做真正的拆包动作
protected Object decode(ChannelHandlerContext ctx, ByteBuf in) throws Exception { if (this.discardingTooLongFrame) { long bytesToDiscard = this.bytesToDiscard; int localBytesToDiscard = (int)Math.min(bytesToDiscard, (long)in.readableBytes()); in.skipBytes(localBytesToDiscard); bytesToDiscard -= (long)localBytesToDiscard; this.bytesToDiscard = bytesToDiscard; this.failIfNecessary(false); } // 如果当前可读字节还未达到长度长度域的偏移,那说明肯定是读不到长度域的,直接不读 if (in.readableBytes() < this.lengthFieldEndOffset) { return null; } else { // 拿到长度域的实际字节偏移,就是长度域的开始下标 // 这里就是需求4,开始的几个字节并不是长度域 int actualLengthFieldOffset = in.readerIndex() + this.lengthFieldOffset; // 拿到实际的未调整过的包长度 // 就是读取长度域的十进制值,最原始传过来的包的长度 long frameLength = this.getUnadjustedFrameLength(in, actualLengthFieldOffset, this.lengthFieldLength, this.byteOrder); // 如果拿到的长度为负数,直接跳过长度域并抛出异常 if (frameLength < 0L) { in.skipBytes(this.lengthFieldEndOffset); throw new CorruptedFrameException("negative pre-adjustment length field: " + frameLength); } else { // 调整包的长度 frameLength += (long)(this.lengthAdjustment + this.lengthFieldEndOffset); // 整个数据包的长度还没有长度域长,直接抛出异常 if (frameLength < (long)this.lengthFieldEndOffset) { in.skipBytes(this.lengthFieldEndOffset); throw new CorruptedFrameException("Adjusted frame length (" + frameLength + ") is less " + "than lengthFieldEndOffset: " + this.lengthFieldEndOffset); // 数据包长度超出最大包长度,进入丢弃模式 } else if (frameLength > (long)this.maxFrameLength) { long discard = frameLength - (long)in.readableBytes(); this.tooLongFrameLength = frameLength; if (discard < 0L) { in.skipBytes((int)frameLength); } else { this.discardingTooLongFrame = true; this.bytesToDiscard = discard; in.skipBytes(in.readableBytes()); } this.failIfNecessary(true); return null; } else { int frameLengthInt = (int)frameLength; //当前可读的字节数小于包中的length,什么都不做,等待下一次解码 if (in.readableBytes() < frameLengthInt) { return null; //跳过的字节不能大于数据包的长度,否则就抛出 CorruptedFrameException 的异常 } else if (this.initialBytesToStrip > frameLengthInt) { in.skipBytes(frameLengthInt); throw new CorruptedFrameException("Adjusted frame length (" + frameLength + ") is less " + "than initialBytesToStrip: " + this.initialBytesToStrip); } else { //根据initialBytesToStrip的设置来跳过某些字节 in.skipBytes(this.initialBytesToStrip); //拿到当前累积数据的读指针 int readerIndex = in.readerIndex(); //拿到待抽取数据包的实际长度 int actualFrameLength = frameLengthInt - this.initialBytesToStrip; //进行抽取 ByteBuf frame = this.extractFrame(ctx, in, readerIndex, actualFrameLength); //移动读指针 in.readerIndex(readerIndex + actualFrameLength); return frame; } } } } }
下面分几个部分来分析一下这个重量级函数
// 拿到长度域的实际字节偏移,就是长度域的开始下标 // 这里就是需求4,开始的几个字节并不是长度域 int actualLengthFieldOffset = in.readerIndex() + this.lengthFieldOffset; // 拿到实际的未调整过的包长度 // 就是读取长度域的十进制值,最原始传过来的包的长度 long frameLength = this.getUnadjustedFrameLength(in, actualLengthFieldOffset, this.lengthFieldLength, this.byteOrder); // 调整包的长度 frameLength += (long)(this.lengthAdjustment + this.lengthFieldEndOffset);
上面这一段内容有个扩展点 getUnadjustedFrameLength,如果你的长度域代表的值表达的含义不是正常的int,short等基本类型,你可以重写这个函数
protected long getUnadjustedFrameLength(ByteBuf buf, int offset, int length, ByteOrder order) { buf = buf.order(order); long frameLength; switch (length) { case 1: frameLength = buf.getUnsignedByte(offset); break; case 2: frameLength = buf.getUnsignedShort(offset); break; case 3: frameLength = buf.getUnsignedMedium(offset); break; case 4: frameLength = buf.getUnsignedInt(offset); break; case 8: frameLength = buf.getLong(offset); break; default: throw new DecoderException( "unsupported lengthFieldLength: " + lengthFieldLength + " (expected: 1, 2, 3, 4, or 8)"); } return frameLength; }
int frameLengthInt = (int)frameLength; //当前可读的字节数小于包中的length,什么都不做,等待下一次解码 if (in.readableBytes() < frameLengthInt) { return null; //跳过的字节不能大于数据包的长度,否则就抛出 CorruptedFrameException 的异常 } else if (this.initialBytesToStrip > frameLengthInt) { in.skipBytes(frameLengthInt); throw new CorruptedFrameException("Adjusted frame length (" + frameLength + ") is less " + "than initialBytesToStrip: " + this.initialBytesToStrip); } //根据initialBytesToStrip的设置来跳过某些字节 in.skipBytes(this.initialBytesToStrip);
先验证当前是否已经读到足够的字节,如果读到了,在下一步抽取一个完整的数据包之前,需要根据initialBytesToStrip的设置来跳过某些字节(见文章开篇),当然,跳过的字节不能大于数据包的长度,否则就抛出 CorruptedFrameException 的异常
//根据initialBytesToStrip的设置来跳过某些字节 in.skipBytes(this.initialBytesToStrip); //拿到当前累积数据的读指针 int readerIndex = in.readerIndex(); //拿到待抽取数据包的实际长度 int actualFrameLength = frameLengthInt - this.initialBytesToStrip; //进行抽取 ByteBuf frame = this.extractFrame(ctx, in, readerIndex, actualFrameLength); //移动读指针 in.readerIndex(readerIndex + actualFrameLength); return frame;
到了最后抽取数据包其实就很简单了,拿到当前累积数据的读指针,然后拿到待抽取数据包的实际长度进行抽取,抽取之后,移动读指针
protected ByteBuf extractFrame(ChannelHandlerContext ctx, ByteBuf buffer, int index, int length) { return buffer.retainedSlice(index, length); }
抽取的过程是简单的调用了一下 ByteBuf 的retainedSliceapi,该api无内存copy开销
public class MyProtocolBean { //类型 系统编号 0xA 表示A系统,0xB 表示B系统 private byte type; //信息标志 0xA 表示心跳包 0xB 表示超时包 0xC 业务信息包 private byte flag; //内容长度 private int length; //内容 private String content; //省略get/set }
public class Server { private static final int MAX_FRAME_LENGTH = 1024 * 1024; //最大长度 private static final int LENGTH_FIELD_LENGTH = 4; //长度字段所占的字节数 private static final int LENGTH_FIELD_OFFSET = 2; //长度偏移 private static final int LENGTH_ADJUSTMENT = 0; private static final int INITIAL_BYTES_TO_STRIP = 0; private int port; public Server(int port) { this.port = port; } public void start(){ EventLoopGroup bossGroup = new NioEventLoopGroup(1); EventLoopGroup workerGroup = new NioEventLoopGroup(); try { ServerBootstrap sbs = new ServerBootstrap().group(bossGroup,workerGroup).channel(NioServerSocketChannel.class).localAddress(new InetSocketAddress(port)) .childHandler(new ChannelInitializer<SocketChannel>() { protected void initChannel(SocketChannel ch) throws Exception { ch.pipeline().addLast(new MyProtocolDecoder(MAX_FRAME_LENGTH,LENGTH_FIELD_OFFSET,LENGTH_FIELD_LENGTH,LENGTH_ADJUSTMENT,INITIAL_BYTES_TO_STRIP,false)); ch.pipeline().addLast(new ServerHandler()); }; }).option(ChannelOption.SO_BACKLOG, 128) .childOption(ChannelOption.SO_KEEPALIVE, true); // 绑定端口,开始接收进来的连接 ChannelFuture future = sbs.bind(port).sync(); System.out.println("Server start listen at " + port ); future.channel().closeFuture().sync(); } catch (Exception e) { bossGroup.shutdownGracefully(); workerGroup.shutdownGracefully(); } } public static void main(String[] args) throws Exception { int port; if (args.length > 0) { port = Integer.parseInt(args[0]); } else { port = 8080; } new Server(port).start(); } }
自定义解码器MyProtocolDecoder
public class MyProtocolDecoder extends LengthFieldBasedFrameDecoder { private static final int HEADER_SIZE = 6; /** * @param maxFrameLength 帧的最大长度 * @param lengthFieldOffset length字段偏移的地址 * @param lengthFieldLength length字段所占的字节长 * @param lengthAdjustment 修改帧数据长度字段中定义的值,可以为负数 因为有时候我们习惯把头部记入长度,若为负数,则说明要推后多少个字段 * @param initialBytesToStrip 解析时候跳过多少个长度 * @param failFast 为true,当frame长度超过maxFrameLength时立即报TooLongFrameException异常,为false,读取完整个帧再报异 */ public MyProtocolDecoder(int maxFrameLength, int lengthFieldOffset, int lengthFieldLength, int lengthAdjustment, int initialBytesToStrip, boolean failFast) { super(maxFrameLength, lengthFieldOffset, lengthFieldLength, lengthAdjustment, initialBytesToStrip, failFast); } @Override protected Object decode(ChannelHandlerContext ctx, ByteBuf in) throws Exception { //在这里调用父类的方法,实现指得到想要的部分,我在这里全部都要,也可以只要body部分 in = (ByteBuf) super.decode(ctx,in); if(in == null){ return null; } if(in.readableBytes()<HEADER_SIZE){ throw new Exception("字节数不足"); } //读取type字段 byte type = in.readByte(); //读取flag字段 byte flag = in.readByte(); //读取length字段 int length = in.readInt(); if(in.readableBytes()!=length){ throw new Exception("标记的长度不符合实际长度"); } //读取body byte []bytes = new byte[in.readableBytes()]; in.readBytes(bytes); return new MyProtocolBean(type,flag,length,new String(bytes,"UTF-8")); } }
public class ServerHandler extends ChannelInboundHandlerAdapter { @Override public void channelRead(ChannelHandlerContext ctx, Object msg) throws Exception { MyProtocolBean myProtocolBean = (MyProtocolBean)msg; //直接转化成协议消息实体 System.out.println(myProtocolBean.getContent()); } @Override public void channelActive(ChannelHandlerContext ctx) throws Exception { super.channelActive(ctx); } }
public class Client { static final String HOST = System.getProperty("host", "127.0.0.1"); static final int PORT = Integer.parseInt(System.getProperty("port", "8080")); static final int SIZE = Integer.parseInt(System.getProperty("size", "256")); public static void main(String[] args) throws Exception { // Configure the client. EventLoopGroup group = new NioEventLoopGroup(); try { Bootstrap b = new Bootstrap(); b.group(group) .channel(NioSocketChannel.class) .option(ChannelOption.TCP_NODELAY, true) .handler(new ChannelInitializer<SocketChannel>() { @Override public void initChannel(SocketChannel ch) throws Exception { ch.pipeline().addLast(new MyProtocolEncoder()); ch.pipeline().addLast(new ClientHandler()); } }); ChannelFuture future = b.connect(HOST, PORT).sync(); future.channel().closeFuture().sync(); } finally { group.shutdownGracefully(); } } }
public class MyProtocolEncoder extends MessageToByteEncoder<MyProtocolBean> { @Override protected void encode(ChannelHandlerContext ctx, MyProtocolBean msg, ByteBuf out) throws Exception { if(msg == null){ throw new Exception("msg is null"); } out.writeByte(msg.getType()); out.writeByte(msg.getFlag()); out.writeInt(msg.getLength()); out.writeBytes(msg.getContent().getBytes(Charset.forName("UTF-8"))); } }
public class ClientHandler extends ChannelInboundHandlerAdapter { @Override public void channelRead(ChannelHandlerContext ctx, Object msg) throws Exception { super.channelRead(ctx, msg); } @Override public void channelActive(ChannelHandlerContext ctx) throws Exception { MyProtocolBean myProtocolBean = new MyProtocolBean((byte)0xA, (byte)0xC, "Hello,Netty".length(), "Hello,Netty"); ctx.writeAndFlush(myProtocolBean); } }
Netty源码分析 (十一)----- 拆包器之LengthFieldBasedFrameDecoder
标签:自定义协议 超时 hdr handle active bind card sock ice
原文地址:https://www.cnblogs.com/java-chen-hao/p/11571229.html